The growing demand for cement has created a significant impact on the environment. Cement production requires huge energy consumptions; however, Pakistan is currently facing a severe energy crisis. Researchers are therefore engaged with the introduction of agricultural/industrial waste materials with cementitious properties to reduce not only cement production but also energy consumption, as well as helping protect the environment. This research aims to investigate the influence of binary cementitious material (BCM) on fresh and hardened concrete mixes prepared with metakaolin (MK) and ground granulated blast furnace slag (GGBFS) as a partial replacement of cement. The replacement proportions of BCM used were 0%, 5%, 10%, 15%, and 20% by weight of cement. A total of five mixes were prepared with 1 : 1.5 : 3 mix proportion at 0.54 water-cement ratios. A total of 255 concrete specimens were prepared to investigate the compressive, tensile, and flexural strength of concrete after 7, 28, and 56 days, respectively. It was perceived that the workability of concrete mixes decreased with an increasing percentage of MK and GGBFS. Also, the density and permeability of concrete decreased with an increasing quantity of BCM after 28 days. Conversely, the compressive, tensile, and flexural strength of concrete were enhanced by 12.28%, 9.33%, and 9.93%, respectively, at 10% of BCM after 28 days. The carbonation depth reduced with a rise in content of BCM (up to 10%) and then later improved after 28, 90, and 180 days. Moreover, the effect of chloride attack in concrete is reduced with the inclusion of BCM after 28 and 90 days. Similarly, the drying shrinkage of concrete decreased with an increase in the content of BCM after 40 days.
Prior studies point to high model uncertainty in shear prediction. Model factors for various shear prediction models are characterized here, based on a recent and well‐vetted database of shear failures. Characterization includes estimation of main statistical parameters; and importantly also correlation and regression analysis to assess consistency of model factors over ranges of design parameters. The aim of the study is to identify models suitable for use as general probabilistic model (GPM) in future reliability assessments. The Variable Strut Inclination Method (VSIM), shear level of approximation III of the fib Model Code 2010, and ACI 318 displayed high bias, variability and various correlations with shear input parameters which make them unsuitable choices for GPM. The compression chord capacity model and the modified compression field theory displayed low bias and variability with consistent model factors over the ranges of shear design parameters and are thus suitable as GPM. Concerns stem from observed inconsistency in capacity prediction by VSIM and size effect in ACI. Reliability assessment is advised.
Purpose
This paper aims to present a meta-analysis and scientometric review to explore the intellectual evolution of research on the health and safety of women in construction, identify trends and research patterns and workplace stressors and hazards encountered by women in the construction industry.
Design/methodology/approach
A combination of scientometric analysis and meta-analysis was adopted to systematically review 32 relevant studies from 1984 to 2020, to provide a holistic review of research on women’s health and safety in construction aimed to identify the trend of research development. Techniques such as co-authorship, keyword co-occurring and cluster analysis were adopted.
Findings
Five main themes summarized by clustering focusing on Workplace Psychological Health, HIV/AIDS and Construction Work, Occupational Health and Safety Injuries, Gender Inclusivity and Sexism in Construction and Gender-specific Health and Safety Analysis. Findings revealed a slow growth in women’s health and safety research with the USA, South Africa, Australia and Japan leading research development. Additionally, the major stressors or hazards faced by women in construction were found to be biological related hazards.
Research limitations/implications
The findings of the study are limited, resulting from the use of one abstract and citation database.
Practical implications
Findings from the study provide insights to the health and safety challenges of women in construction and identifies of knowledge gaps in the existing literature could provide researchers and industry practitioners with a comprehensive insight into intellectual landscapes, potential research frontiers on technologies for women’s construction health and safety.
Originality/value
While numerous studies have focused on the health and safety of workers in the construction industry, research on women’s health and safety is lacking. The study adopted a scientometric and meta-analysis approach to explore the intellectual evolution and reflect the research status on the subject.
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